CN105228511A

CN105228511A - Surgical equipment

Info

Publication number: CN105228511A
Application number: CN201480028649.2A
Authority: CN
Inventors: 牛岛孝则; 松井聪大
Original assignee: Olympus Corp
Current assignee: Olympus Corp
Priority date: 2014-01-23
Filing date: 2014-10-17
Publication date: 2016-01-06
Also published as: JP5802869B1; EP2982333A1; US20160113482A1; EP2982333A4; WO2015111260A1; JPWO2015111260A1

Abstract

There is provided surgical equipment, even if also reliable depth feelings can be obtained when the horizontal direction on the image of left and right being inserted this surgical equipment.Therefore, axle portion (52) arrange multiple mark (55), the interval (d) of each mark (55) adjacent each other configures as follows: when axle portion (52) are taken with the state that the optical axis (Ol, Or) of the image pickup optical system (17l, 17r) with left and right is vertical in the range of error specified, the interval (D) of each mark (55) on each image of left and right is wider than the side-play amount (| XL-XR|) of the left and right directions of mark (55) corresponding between the image of left and right all the time.

Description

Surgical equipment

Technical field

The present invention relates to surgical equipment, this surgical equipment is applicable to the surgical management carried out under the 3-dimensional image by obtaining from different viewpoints shooting same target.

Background technology

In the past in the various finder such as operation microscope or endoscope, be known to the stereovision device using 2, left and right image pickup optical system from different viewpoints shooting subject.In this stereovision device, the shot object image of such as captured left and right simultaneously or alternately show on a monitor.And observers etc. observe the shot object image being shown in monitor, thereby, it is possible to three-dimensionally observe shot object image via special glasses etc.

In addition, about the surgical equipment for such stereovision device, propose the various technology for making surgical staff etc. hold distance perspective when observing 3-dimensional image exactly.Such as, in Japanese Unexamined Patent Publication 2008-136671 publication (patent documentation 1), disclose following technology: there is the opaqueness cladding material of the leading section side face covering light-conductive optic fibre by making the laser microprobe carrying out plugging in the probe passage of eyes formula stereo endoscope be configured to and cover the light transmission cladding material with the leading section continuous print part of light-conductive optic fibre, thus suppress the laser microprobe that only have 1 on three-dimensional display, demonstrate the phenomenon of 2 grades, and clearly the leading section covered by opaqueness parts is identified as body lumen wall etc.

But, such as in laparoscopic surgery etc., in order to directly carry out the operation for the treatment of apparatus (surgical equipment) in limited space, generally, the trocar of mirror body and the trocar for the treatment of apparatus are configured at different positions, and treatment apparatus inserts obliquely relative to laparoscopically observation axle.In addition, in recent years, in the laparoscopic surgery of the monotrysian type carried out at Xiang Yichu trocar insertion mirror body and treatment apparatus or robotic surgery etc., sometimes use multiple degrees of freedom pliers or bending pliers etc., these treatment apparatus especially can operate from the direction substantially vertical with laparoscopically observation axle.And, in this treatment apparatus, expect path in order to low intrusionization.

But, such as, when vertical with laparoscopically observation axle and horizontal direction on left images operates the treatment apparatus of path, even the peritoneoscope etc. that can carry out three dimensional viewing is also difficult to the positional information in the depth direction obtaining treatment apparatus.Such phenomenon is also such as same when operating the surgical equipment such as pin or line.

The present invention completes in view of described situation, its object is to provide surgical equipment, even if also can obtain reliable depth feelings when the horizontal direction on the image of left and right being inserted this surgical equipment.

Summary of the invention

For solving the means of problem

The surgical equipment of a mode of the present invention uses under the observation of stereovision device, image pickup optical system by left and right is shown in display part from the image three-dimensional of the left and right of different viewpoint subject gained by this stereovision device, this surgical equipment has: elongate portion, and it is configured in the camera watch region of the image pickup optical system of described left and right; And more than 2 marks, they are arranged at described elongate portion, the interval of each described mark adjacent each other configures as follows: when described elongate portion is taken with the state that the optical axis of the image pickup optical system with described left and right is vertical in the range of error specified, the parallax amount of the left and right that the interval of each described mark on each image of described left and right obtains than the image pickup optical system by described left and right is all the time wide.

Accompanying drawing explanation

Fig. 1 is the summary construction diagram of surgery endoscopic system.

Fig. 2 is the profile of the major part schematically showing forward end section of endoscope.

Fig. 3 illustrates the key diagram using surgery endoscopic system to carry out the state of laparoscopic surgery.

Fig. 4 is the axonometric chart of the front that IT cutter is shown.

Fig. 5 is the axonometric chart that the front holding pliers is shown.

(a) in Fig. 6 is the key diagram of the left image of shooting IT cutter gained, and (b) in Fig. 6 is the key diagram of the right image of shooting IT cutter gained.

(a) in Fig. 7 is the key diagram of the left image of shooting IT cutter gained, and (b) in Fig. 7 is the key diagram of the right image of shooting IT cutter gained.

Fig. 8 is the axonometric chart of the front of the IT cutter that the 1st variation is shown.

Fig. 9 is the axonometric chart of the front of the IT cutter that the 2nd variation is shown.

Figure 10 is the axonometric chart of the front of the IT cutter that the 3rd variation is shown.

Figure 11 is the axonometric chart of the front of the IT cutter that the 4th variation is shown.

Figure 12 is the axonometric chart of the front of the IT cutter that the 5th variation is shown.

Detailed description of the invention

Referring to accompanying drawing, mode of the present invention is described.Accompanying drawing relates to an embodiment of the invention, Fig. 1 is the summary construction diagram of surgery endoscopic system, Fig. 2 is the profile of the major part schematically showing forward end section of endoscope, Fig. 3 illustrates the key diagram using surgery endoscopic system to carry out the state of laparoscopic surgery, Fig. 4 is the axonometric chart of the front that IT cutter is shown, Fig. 5 is the axonometric chart that the front holding pliers is shown, (a) in Fig. 6 is the key diagram of the left image of shooting IT cutter gained, (b) in Fig. 6 is the key diagram of the right image of shooting IT cutter gained, (a) in Fig. 7 is the key diagram of the left image of shooting IT cutter gained, (b) in Fig. 7 is the key diagram of the right image of shooting IT cutter gained.

Surgery endoscopic system 1 shown in Fig. 1 is configured to be had: as the endoscope 5 of an example of stereovision device, light supply apparatus 6, camera control unit (CCU) 7 and 3D monitor 34.

Endoscope 5 in present embodiment is the rigid endoscopes being such as suitable for laparoscopic surgery, and this endoscope 5 is configured to have the insertion section 9 of inserting abdominal cavity and the operating portion 10 linked with the base end part of insertion section 9.

Insertion section 9 is hard, has the length being applied to abdominal cavity operation.Insertion section 9 has hard tip portion 11, bending section 12 and stereoplasm tube portion 13 in order from front.

Here, such as shown in Figure 2, in the inside of the hard portion main body 15 of the exterior member as formation hard tip portion 11, the stereo optical system 16 for carrying out stereovision to subject etc. is configured with.Specifically, in the front end of hard portion main body 15, left eye is used and object lens 19l, 19r of right eye have the optical axis interval D o of regulation to give the parallax of left and right, and is retained as state separated from each other.In addition, in hard portion main body 15, optical axis Ol, Or of each object lens 19l, 19r are configured with imaging optical system 20l, 20r of left eye use and the right eye be made up of multiple lens respectively.And then the base end side in hard portion main body 15, the left eye be made up of solid-state imager (CCD) etc. is used and imaging apparatus 21l, 21r of right eye are configured to opposed with imaging optical system 20l, 20r of left and right.And, the image pickup optical system 17l of left eye is made up of, the 17r and the image pickup optical system forming right eye by object lens 19r, the imaging optical system 20r of right eye and imaging apparatus 21r is united object lens 19l, the imaging optical system 20l of left eye and imaging apparatus 21l.And then, in hard portion main body 15, form stereo optical system 16 by image pickup optical system system 17l, 17r of these left eyes use and right eye.

As shown in Figure 1, operating portion 10 is provided with: angle rod 25,26, it is for operated from a distance bending section 12; And various switch 27, it is for operational light source apparatus 6 and CCU7 etc.Angle rod 25,26 is the bars that such as can operate bending section 12 on 4 directions up and down.

In addition, Universal automatic cable 30 extends from the base end side of operating portion 10, and the elongated end of this Universal automatic cable 30 is provided with optical connector 31, and this optical connector 31 is freely connected with light supply apparatus 6 with loading and unloading.And then, branch out the base end side running through the communications cable 32 be inserted in insertion section 9, operating portion 10 and Universal automatic cable 30 from optical connector 31, be provided with the video-frequency connector 33 be freely connected with loading and unloading with CCU at the cardinal extremity of this communications cable 32.

Light supply apparatus 6 provides illumination light to the lamp optical system (not shown) being arranged at hard tip portion 11.Namely, run through in the Universal automatic cable 30 of endoscope 5, operating portion 10 and insertion section 9 and be inserted with photoconduction (not shown), this photoconduction makes to connect from optical connector 31 to lamp optical system optics, and light supply apparatus 6 provides illumination light via this photoconduction to lamp optical system.

The optical image of the subject (look-out station etc.) of being thrown light on by the illumination light from light supply apparatus 6 is taken by the image pickup optical system of left and right system 17l, 17r respectively.And the image pickup signal generated by image pickup optical system 17l, 17r of left and right transmits to CCU7 via the communications cable 32.

CCU7 is such as configured to be had: camera signal processing circuit, and it converts the image pickup signal that imaging apparatus 21l, 21r export the signal of video signal of regulation to; Frame memory, its each signal of video signal exported by camera signal processing circuit is according to every Frame storage; And 3D Image compounding circuit (all not shown), the signal of video signal read from frame memory is synthesized 3D image by it.

The image synthesized by CCU7 exports to monitor 34 as 3D image, and this monitor 34 is the display parts of the stereo display that can realize polarization method.Now, according to the optical axis interval D o of optical axis Ol, Or of image pickup optical system 17l, 17r of left and right and the distance that specifies with the object of observation and the subject of taking is presented on monitor 34 with the parallax amount of left and right, the observers such as surgical staff observe monitor 34 by carrying out eyes via polaroid glasses, and subject can be melted picture for having relief picture.In addition, as the mode realizing stereovision, except on monitor 34 with based on except polarization method display line by line, also can adopt and carry out with time division the method that shows.In the laparoscopic surgery employing such endoscopic system 1, such as shown in Figure 3, multiple (being 3 in the example in the figures) trocar 40 ~ 42 punctures into abdominal wall.Wherein, run through the insertion section 9 being inserted with endoscope 5 in 1 trocar 40, by running through insertion to this trocar 40, intraperitoneal is inserted in the front of the insertion section 9 of endoscope 5.

In addition, be inserted with the various treatment apparatus as surgical equipment in other trocar 41,42 respectively, by running through insertion to these trocars 41,42, intraperitoneal is inserted in the front of various treatment apparatus.Here, in figure 3, as treatment apparatus, such as IT cutter 50 and holding pliers 60 insert each trocar 41,42 respectively.

Such as, as shown in Figure 3,4, IT cutter 50 is configured to have disposal portion 51, as the axle portion 52 of elongate portion and operating portion 53, wherein, this disposal portion 51 has high-frequency treatment electrode, this axle portion 52 is connected with this disposal portion 51 and arranges, and this operating portion 53 is connected with the base end side in axle portion 52 and arranges, for operated from a distance disposal portion 51.

In addition, such as shown in Fig. 3,5, hold pliers 60 and be configured to have disposal portion 61, as the axle portion 62 of elongate portion and operating portion 63, wherein, this disposal portion 61 has can a pair pliers sheet 61a, 61b of opening and closing mutually, this axle portion 62 is connected with this disposal portion 61 and arranges, and this operating portion 63 is connected with the base end side in axle portion 62 and arranges, for operated from a distance disposal portion 61.Here, the holding pliers 60 of present embodiment has joint portion 62a in the midway in axle portion 62, and this joint portion 62a can carry out flexure operation by the operation to operating portion 63.That is, the holding pliers 60 of present embodiment becomes the multiple degrees of freedom pliers carrying out flexure operation to stop at joint portion 62a that can make axle portion 62.

The axle portion 52,62 of these IT cuttves 50 and holding pliers 60 is formed as the roughly evenly thickness specified respectively, and the outer peripheral face in these axle portions 52,62 is respectively arranged with the mark of more than 2.

Specifically, such as shown in Figure 4, on IT cutter 50, in the front-end side region in axle portion 52,3 marks 55 are configured with every the interval of regulation.These marks 55 are such as made up of the linear pattern being formed as mutually same modality circumferentially arranged in the axle vertical direction in axle portion 52.

In addition, such as shown in Figure 5, on holding pliers 60, such as, in the front-end side region (more particularly, the region of side more forward than joint portion 62a) in axle portion 62, the interval separating regulation is configured with 2 marks 65.These marks 65 are such as made up of the annular patterns being formed as mutually same modality circumferentially arranged in the axle vertical direction in axle portion 62.

In this case, the relation of the image of the left and right that the interval d being arranged at each mark 55 in the axle portion 52 of IT cutter 50 and interval d such as basis and image pickup optical system 17l, 17r of left and right of being arranged at each mark 65 in the axle portion 62 holding pliers 60 take within the scope of the camera distance preset sets.

Specifically, the interval d of each mark 55 adjacent in the axle portion 52 of IT cutter 50 such as configures according to following interval as Suo Shi (a), (b) in Fig. 7: when axle portion 52 is taken with the state that optical axis Ol, the Or of image pickup optical system 17l, 17r with left and right are vertical in the range of error specified, the interval D of each mark 55 on each image of left and right is all the time than the parallax amount of the left and right directions of mark 55 corresponding between the image of the left and right observed via monitor 34 | and XL-XR| is wide.

That is, the interval d of adjacent each mark 55 is set to: when axle portion 52 is taken with the state that optical axis Ol, the Or with left and right is substantially vertical, and the interval D of the mark on each image of left and right meets the relation of formula (1) all the time.

|XL-XR|＜D…(1)

In this case, the state that axle portion 52 is vertical in the range of error specified with optical axis Ol, Or of image pickup optical system 17l, 17r of left and right such as refers to the thickness situation that (in the range of error of such as 5%) is consistent in the range of error specified by both sides in the axle portion 52 that (or on right image) demonstrates on the left image of axle portion 52 gained taking homogeneous diameter.Such as, as shown in (a) (or (b) in Fig. 7) in Fig. 7, refer to when flatly extending in the lateral direction when axle portion 52 in left image (or right image), the situation that thickness (highly) YL1 with YL2 (or YR1 with YR2) in the axle portion 52 by the left and right sides on image is consistent in the range of error of regulation.

Equally, be also configured to meet above-mentioned relation at the interval d holding mark 65 adjacent in the axle portion 62 of pliers 60.

Like this, by arranging mark 55,65 in the axle portion 52,62 of IT cutter 50 and holding pliers 60, thus the situation that edge such as IT cutter 50 grade is inserted with optical axis Ol, Or off plumb direction of image pickup optical system 17l, 17r of left and right (such as with reference to (a), (b) in Fig. 6) is from needless to say, even if (such as with reference to (a), (b) in Fig. 7) also reliably can obtain depth feelings by 3 d image when IT cutter 50 inserts along the direction that optical axis Ol, the Or of image pickup optical system 17l, 17r with left and right are substantially vertical.

Namely, such as shown in Figure 7, under the state that axle portion 52 grade of IT cutter 50 is substantially vertical with optical axis Ol, Or of image pickup optical system 17l, 17r of left and right, when along on the image of left and right horizontal direction insert and when showing across the left and right sides on each image, sometimes by means of only axle portion 52 picture be difficult to hold based on parallax left images between difference, be difficult to feel depth, but, by arranging multiple mark 55 in axle portion 52, difference between can easily holding based on the left images of parallax, can feel depth.Now, the interval d of each mark 55 adjacent each other is made to be configured to following interval: when axle portion 52 is with the image pickup optical system 17l with left and right, the optical axis Ol of 17r, Or specify range of error in vertical state be taken time, the interval D of each mark 55 on each image of the left and right observed via monitor 34 is all the time than the side-play amount of the left and right directions of mark 55 corresponding between the image of the left and right observed via monitor 34 | and XL-XR| is wide, thus, reliably can prevent different marks 55 defect such as overlapping display between the image of the left and right observed via monitor 34, reliably can prevent the wrong identification etc. of depth feelings.

In this case, mark 55 is arranged along the periphery in axle portion 52, thus, can both reliably make mark 55 be presented at image from the shooting in all directions around axle portion 52.

Here, in order to the difference of the adjacent mark 55 of the image chien shih in left and right is clearer and more definite, such as, as shown in Figure 8, also the width setup of each mark 55 be arranged in axle portion 52 can be become width different mutually.

In addition, such as, as shown in Figure 9, also the color settings being arranged at each mark 55 in axle portion 52 can be become colors different mutually.

In addition, such as, as shown in Figure 10, also the width of each mark 55 being arranged at axle portion 52 can be become width different mutually and color with color settings.

In addition, such as, as shown in figure 11, also the interval of each mark 55 being arranged at axle portion 52 can be set to intervals different mutually.

In addition, such as, as shown in figure 12, each mark 55 being arranged at axle portion 52 also can be made up of to replace the pattern of wire the groove of wire.

Here, although omit detailed description, it is mathematical that each mark 65 be arranged in the axle portion 62 holding pliers 60 also can apply same various variation.

In addition, the mark 55 shown in Figure 12 and the mark shown in Fig. 5 65 etc. such as also can be adopted to make the form of the mark of the various surgical equipment simultaneously used in laparoscopic surgery etc. different mutually.

In addition, the invention is not restricted to each embodiment described above, can carry out various distortion or change, they are also in the scope of technology of the present invention.Such as, certainly can by appropriately combined for the structure shown in the structure shown in above-mentioned embodiment and each variation.

In addition, apply operation equipment of the present invention and be certainly not limited to the said equipment, also can be applied to the various treatment apparatus classes with elongate portion such as axle portions.

And then, as operation equipment, be certainly not limited to treatment apparatus class, also can be applied to the pin of the surgery using treatment apparatus generic operation or line etc.

In addition, with surgical equipment and stereovision device be certainly not limited to endoscope, also can be such as the microscope etc. of cerebral surgery operation.

The application proposes for the basis of claim of priority with No. 2014-10595, the Japanese Patent Application of on January 23rd, 2014 in Japanese publication, in the description of the application, claims and accompanying drawing, refer to foregoing.

Claims

1. a surgical equipment, this surgical equipment uses under the observation of stereovision device, image pickup optical system by left and right is shown in display part from the image three-dimensional of the left and right of different viewpoint subject gained by this stereovision device, and the feature of this surgical equipment is

This surgical equipment has:

Elongate portion, it is configured in the camera watch region of the image pickup optical system of described left and right; And

The mark of more than 2, they are arranged at described elongate portion,

The interval of each described mark adjacent each other configures as follows: when described elongate portion is taken with the state that the optical axis of the image pickup optical system with described left and right is vertical in the range of error specified, the parallax amount of the left and right that the interval of each described mark on each image of described left and right obtains than the image pickup optical system by described left and right is all the time wide.

2. surgical equipment according to claim 1, is characterized in that,

Each described mark is the line arranged along the periphery of described elongate portion.

3. surgical equipment according to claim 1, is characterized in that,

Each described mark is the line arranged along the periphery of described elongate portion, and the width of each described mark is different mutually.

4. surgical equipment according to claim 1, is characterized in that,

Each described mark is the line arranged along the periphery of described elongate portion, and the color of each described mark is different mutually.

5. surgical equipment according to claim 1, is characterized in that,

Each described mark is the line arranged along the periphery of described elongate portion, and the interval of each described mark is different mutually.

6. surgical equipment according to claim 1, is characterized in that,

Each described mark is the groove of the wire arranged along the periphery of described elongate portion.